Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Methyl insertion

An activation energy for the methyl insertion step of 70 kJ mol-1 has been estimated, although the influence of solvents is important. [Pg.1211]

Isobutylene gives isobutylene episulfide and the methyl insertion product, 2-methyl-propene-3-thiol, under similar conditions. [Pg.173]

Page 77, lines 7, 8, and 9 from bottom. Between 3,6-Anhydro-n-allose phenyl-osazone and "2-methyl- insert the heading 3,6-Anhydro-n-altrose. ... [Pg.422]

Sulfur dioxide inserts into alkyltin bonds to give stannylsulfinates, R3Sn0-S(0)R,46 but the reactivity falls off in the sequence R = allyl allenyl propargyl > phenyl > benzyl > methyl. Insertion into a vinyl-tin bond occurs with retention of configuration. The reaction with aryl and benzyl compounds is cleanly first order in each of the two reactants, and is rather insensitive to the nature of any substituents in the benzyl ring. [Pg.75]

The full ab-initio molecular dynamics simulation revealed the insertion of ethylene into the Zr-C bond, leading to propyl formation. The dynamics simulations showed that this first step in ethylene polymerisation is extremely fast. Figure 2 shows the distance between the carbon atoms in ethylene and between an ethylene carbon and the methyl carbon, from which it follows that the insertion time is only about 170 fs. This observation suggests the absence of any significant barrier of activation at this stage of the polymerisation process, and for this catalyst. The absence or very small value of a barrier for insertion of ethylene into a bis-cyclopentadienyl titanocene or zirconocene has also been confirmed by static quantum simulations reported independently... [Pg.434]

N-Methyl-1,5-diphenylpentan-3-ylamine — Into a 250 cm, singlenecked flask, were combined 1,5-diphenylpentan-3-one (7.15g, 30mmol) [<-insert said P2P here ], a solution of MeNHz in MeOH... [Pg.119]

As a typical example, the catalytic reaction of iodobenzene with methyl acrylate to afford methyl cinnamate (18) is explained by the sequences illustrated for the oxidative addition, insertion, and /3-elimination reactions. [Pg.9]

Two moles of diphenylacetylene insert into the benzyl methyl sulfide complex 481 to afford the eight-membered heterocycle 482[440j. The cinnolinium Salt 483 is prepared by the insertion of alkynes into the azobenzene com-plex[44l]. [Pg.89]

The facile insertion of CO takes place. The 2-aryl-3-indazolone 484 is obtained in high yields from the azobenzene complex 463 in alcohol or waterf442]. For unsymmetrically substituted 4-methyl, 4-chloro-, and 4-meth-... [Pg.89]

The carbopalladation of allylamine with malonate affords the chelating complex 510, which undergoes insertion of methyl vinyl ketone to form the amino enone 511[463]. The allylic sulfide 512 has the same chelating effect to give the five-membered complex 513 by carbopalladation[463.464]. [Pg.95]

In the reaction of Q,/3-unsaturated ketones and esters, sometimes simple Michael-type addition (insertion and hydrogenolysis, or hydroarylation, and hydroalkenylation) of alkenes is observed[53,54]. For example, a simple addition product 56 to methyl vinyl ketone was obtained by the reaction of the heteroaromatic iodide 55[S5]. The corresponding bromide affords the usual insertion-elimination product. Saturated ketones are obtained cleanly by hydroarylation of o,/3l-unsaturated ketones with aryl halides in the presence of sodium formate, which hydrogenolyses the R—Pd—I intermediate to R— Pd—H[56]. Intramolecular hydroarylation is a useful reaction. The diiodide 57 reacts smoothly with sodium formate to give a model compound for the afla-toxin 58. (see Section 1.1.6)[57]. Use of triethylammonium formate and BU4NCI gives better results. [Pg.136]

The 7V-methylbenzo[( e]quinoline 426 was prepared by trapping the insertion product of an internal alkyne with a tertiary dimethylamine. One methyl group is eliminated. The dimethylaminonaphthalene-Pd complex 427 is an active catalyst and other Pd compounds are inactive[290a]. [Pg.186]

Allylic carbonates are most reactive. Their carbonylation proceeds under mild conditions, namely at 50 C under 1-20 atm of CO. Facile exchange of CO2 with CO takes place[239]. The carbonylation of 2,7-octadienyl methyl carbonate (379) in MeOH affords the 3,8-nonadienoate 380 as expected, but carbonylation in AcOH produces the cyclized acid 381 and the bicyclic ketones 382 and 383 by the insertion of the internal alkene into Tr-allylpalladium before CO insertion[240] (see Section 2.11). The alkylidenesuccinate 385 is prepared in good yields by the carbonylation of the allylic carbonate 384 obtained by DABCO-mediated addition of aldehydes to acrylate. The E Z ratios are different depending on the substrates[241]. [Pg.341]

Among several propargylic derivatives, the propargylic carbonates 3 were found to be the most reactive and they have been used most extensively because of their high reactivity[2,2a]. The allenylpalladium methoxide 4, formed as an intermediate in catalytic reactions of the methyl propargylic carbonate 3, undergoes two types of transformations. One is substitution of cr-bonded Pd. which proceeds by either insertion or transmetallation. The insertion of an alkene, for example, into the Pd—C cr-bond and elimination of/i-hydrogen affords the allenyl compound 5 (1.2,4-triene). Alkene and CO insertions are typical. The substitution of Pd methoxide with hard carbon nucleophiles or terminal alkynes in the presence of Cul takes place via transmetallation to yield the allenyl compound 6. By these reactions, various allenyl derivatives can be prepared. [Pg.453]

The alka-l,2,4-trienes (ailenylaikenes) 12 are prepared by the reaction of methyl propargyl carbonates with alkenes. Alkene insertion takes place into the Pd—C bond of the ailenyipailadium methoxide 4 as an intermediate and subsequent elimination of/3-hydrogen affords the 1,2,4-triene 12. The reaction proceeds rapidly under mild conditions in the presence of KBr. No reaction takes place in the absence of an alkali metal salt[4j. [Pg.455]

Methyl ketones give esters of acetic acid that is oxygen insertion occurs between the carbonyl carbon and the larger of the two groups attached to it... [Pg.736]

BH4 [69532-06-5]. The methyl compound has exhibited insertion reactivity, including aldehydes, ketones, nitriles, and isocyanides (29). Stable metaHacycle... [Pg.43]

The molecular features of covalent hydration are also present in the dihydroxy series, i.e., in pteridine-2,6-dione (30) and in pteridine-4,6-dione. The latter compound is hydrated only at the C(7)—N(8) double bond, whereas (30) forms two hydrated species, 7-hydroxy-7,8-dihydro- (29) and 4-hydroxy-3,4-dihydro-pteridin-2,6-dione (31) (equation 8). Structure (29) is thermodynamically the more stable substance (31) is formed more rapidly in solution but disappears slowly with time (63JCS5151). Insertion of a 4-methyl group greatly reduces the extent of 3,4- in favour of 7,8-hydration by a blocking effect . [Pg.272]


See other pages where Methyl insertion is mentioned: [Pg.506]    [Pg.50]    [Pg.449]    [Pg.506]    [Pg.50]    [Pg.449]    [Pg.436]    [Pg.314]    [Pg.499]    [Pg.500]    [Pg.238]    [Pg.407]    [Pg.735]    [Pg.830]    [Pg.1005]    [Pg.60]    [Pg.92]    [Pg.147]    [Pg.156]    [Pg.202]    [Pg.396]    [Pg.471]    [Pg.540]    [Pg.223]    [Pg.407]    [Pg.108]    [Pg.180]    [Pg.158]    [Pg.335]    [Pg.108]    [Pg.142]    [Pg.386]    [Pg.61]    [Pg.61]    [Pg.132]    [Pg.133]   
See also in sourсe #XX -- [ Pg.50 ]




SEARCH



© 2024 chempedia.info